Add to ORKGThe active suppression of structural vibration is normally achieved by either feedforward or feedback control. In the absence of a suitable reference signal feedforward control cannot be employed and feedback control is the only viable approach. Conventional feedback control algorithms (e.g. LQR and LQG) are designed on the basis of a mathematical model of the system and ideally the performance of the system should be robust against uncertainties in this model. The aim of this paper is to numerically investigate the robustness of LQR and LQG algorithms by designing the controller for a nominal system, and then assessing (via Monte Carlo simulation) the effects of uncertainties in the system. T...
This paper deals with passive vibration control of structures exhibiting both long and short wavelen...
This paper presents an investigation into the application of a high gain feedback re gul...
Summarization: Slender flexible structures are vulnerable to vibrations under wind loads. The dynami...
The active suppression of structural vibration is normally achieved by either feedforward or feedbac...
An optimal robust Minimax LQG control of vibration of a flexible beam is studied in this paper. The ...
In this paper identification and optimal robust Minimax-LQG control design are studied for active vi...
ABSTRACT: The study of algorithms for active vibration control in smart structures is an area of int...
The study of algorithms for active vibration control in smart structures is an area of interest, mai...
In this brief the design and analysis of an optimal robust minimax linear quadratic Gaussian (LQG) c...
<div>EACS 2016 Paper No. 161</div><div><br></div>A novel semi-active control strategy for the effect...
Purpose – This paper aims to develop a robust controller to control vibration of a thin plate attach...
© 2007 Elsevier Ltd. All rights reserved.When attempting to actively control the vibration of a comp...
Multiple Tuned Mass Dampers (MTMD) is one of the simplest and most reliable solution to control the ...
In this work, a new robust control algorithm is introduced for uncertain systems with harmonic distu...
Flexible structures are increasingly used in various applications such as aerospace, automotive and ...
This paper deals with passive vibration control of structures exhibiting both long and short wavelen...
This paper presents an investigation into the application of a high gain feedback re gul...
Summarization: Slender flexible structures are vulnerable to vibrations under wind loads. The dynami...
The active suppression of structural vibration is normally achieved by either feedforward or feedbac...
An optimal robust Minimax LQG control of vibration of a flexible beam is studied in this paper. The ...
In this paper identification and optimal robust Minimax-LQG control design are studied for active vi...
ABSTRACT: The study of algorithms for active vibration control in smart structures is an area of int...
The study of algorithms for active vibration control in smart structures is an area of interest, mai...
In this brief the design and analysis of an optimal robust minimax linear quadratic Gaussian (LQG) c...
<div>EACS 2016 Paper No. 161</div><div><br></div>A novel semi-active control strategy for the effect...
Purpose – This paper aims to develop a robust controller to control vibration of a thin plate attach...
© 2007 Elsevier Ltd. All rights reserved.When attempting to actively control the vibration of a comp...
Multiple Tuned Mass Dampers (MTMD) is one of the simplest and most reliable solution to control the ...
In this work, a new robust control algorithm is introduced for uncertain systems with harmonic distu...
Flexible structures are increasingly used in various applications such as aerospace, automotive and ...
This paper deals with passive vibration control of structures exhibiting both long and short wavelen...
This paper presents an investigation into the application of a high gain feedback re gul...
Summarization: Slender flexible structures are vulnerable to vibrations under wind loads. The dynami...